RU2565021C1 - Method of preparing compound fertiliser for sugar beet - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method of production of fertiliser for sugar beet, comprising ammonium phosphates, ammonium sulphates, potassium and sodium chlorides, comprises mixing wet-process phosphoric acid with absorption effluent, neutralisation with ammonia of the mixture of wet-process phosphoric and sulphuric acids to the molar ratio of NH₃:H₃PO₄, equal to 1.0-1.2 with obtaining sulpho-ammophos pulp, feeding of recycle and pulp for granulation, mixing the pulp with the sodium-containing raw material and potassium chloride, the product granulation, and drying the granules in a drying drum until the residual moisture content in the product is 0.8-1.2%, and the sulphuric acid is added in an amount of 2.65-2.9 t based on the monohydrate in 1 t of wet-process phosphoric acid in terms of P₂O₅, potassium chloride is added in an amount of 1.85-2.05 t per 1 ton of P₂O₅, and the sodium-containing raw material is used as ground sylvinite which is added in a weight ratio of sylvinite:potassium chloride, equal to 0.25-0.40:1.

EFFECT: invention enables to obtain a highly efficient compound fertiliser for sugar beet and to simplify the flow process.

2 ex

Description

The invention relates to a technology for the production of complex nitrogen-phosphorus-potassium fertilizer for sugar beets and can be used in agriculture.

A known method of producing complex fertilizers [RF patent 2230051, class. C05G 1/06, C05B 7/00, C05B 11/04, publ. 10/06/2004], including the neutralization by ammonia of a mixture of sulfuric and phosphoric acids to obtain phosphate pulp with a molar ratio of NH ₃ : H ₃ PO ₄ equal to 1.0-1.5; the introduction of potassium-containing component, granulation and drying, using unpaired phosphoric acid, sulfuric acid is introduced in an amount of 0.2-0.5 tons per 1 t P ₂ About ₅ . As the potassium-containing component, potassium chloride or potassium sulfate is used. The method allows to obtain NPK fertilizers of the following composition: 8-10% N, 24-26% P ₂ O ₅ , 24-25% K ₂ O.

The disadvantage is the low fertilizer efficiency for sugar beets due to the lack of sodium in the composition, as well as the relatively low nitrogen content.

Known granular fertilizer for sugar beets [A.S. USSR 889649, class C05D 1/02, publ. 12/15/1981], which consists of potassium chloride, sodium chloride and an additive, while the additive contains superphosphate, urea-formaldehyde resin and dolomitic clay sludge in the following ratio of components (wt.% Per dry matter): sodium chloride 10-33 , resin 0.25-0.8, clay sludge 15-42.5, superphosphate 0.25-7.2, potassium chloride - the rest. Fertilizer is obtained by mixing the components and subsequent granulation. Fertilizer contains 0.1-0.4% nitrogen, 0.1-3% phosphates in terms of P ₂ O ₅ , 10-40% potassium in terms of K ₂ O, 5-17% sodium in terms of Na ₂ O The use of this fertilizer for sugar beets on sod-podzolic soils can increase the yield and sugar content of the crop.

The disadvantage is the low agrochemical effectiveness of the fertilizer due to the low content of nitrogen and phosphates.

A known method of producing complex fertilizers [RF Patent No. 2404947, class. C05G 1/06, publ. November 27, 2010], which includes phased ammonization of a mixture of phosphoric and sulfuric acids, at the first stage, phosphoric acid is mixed with absorption drains to achieve a mixture density of 1.36-1.44 g / cm ³ , neutralization with ammonia at the second stage of a mixture of phosphoric acid and sulfuric acid carried out in a tubular reactor to obtain sulfoammophos pulp, in the third stage, the pulp is ammoniated in a granulator ammonizer, as well as the introduction of potassium chloride, granulation and drying of the product.

The disadvantage of this method is the low agrochemical effectiveness of fertilizers on crops of sugar beets.

The closest to the described by the technical nature and the achieved result is granular fertilizer for sugar beets [RF Patent No. 2440960, cl. C05D 1/02, C05G 1/06, publ. 01/27 2012], containing potassium chloride and sodium, phosphates and ammonium sulfate in the following ratio, wt. %: sodium chloride 5-8; potassium chloride 24-26; ammonium phosphates 23-24; moisture 0.8-1.2; ammonium sulfate the rest. A method for producing fertilizer for sugar beets includes neutralizing with ammonia a mixture of extraction phosphoric and sulfuric acids to a molar ratio of NH ₃ : H ₃ PO ₄ equal to 1.0-1.2, to obtain sulfophosphate pulp; supply of retur and pulp to the ammonizer-granulator; mixing pulp with sodium-containing raw materials and potassium chloride, taken in a mass ratio in terms of Na ₂ O and K ₂ O, equal to 0.17-0.27: 1; granulating the product and drying the granules in a drying drum to a residual moisture in the product of 0.8-1.2%, while sodium chloride is used as the sodium-containing raw material.

The disadvantage of this method is the use of sodium chloride - table salt, which requires preliminary preparation of raw materials (crushing and classification).

The purpose of the invention is to obtain highly effective complex fertilizers for sugar beets and the simplification of the process.

The goal is achieved in the proposed method for producing sugar beet fertilizer containing ammonium phosphates, ammonium sulfates, potassium chloride and sodium, including mixing extraction phosphoric acid with absorption drains, neutralizing ammonia with a mixture of extraction phosphoric and sulfuric acids to a molar ratio of NH ₃ : H ₃ PO ₄ , equal to 1.0-1.2 to obtain sulfoammophos pulp, supply of retur and pulp to granulation; mixing pulp with sodium-containing raw materials and potassium chloride, granulating the product and drying the granules in a drying drum to a residual moisture in the product of 0.8-1.2%, while sulfuric acid is introduced in an amount of 2.65-2.9 tons in terms of monohydrate in 1 t of extraction phosphoric acid in terms of P ₂ O ₅ , potassium chloride is introduced in an amount of 1.85-2.05 t per 1 t P ₂ O ₅ , and ground sylvinite is used as the sodium-containing raw material, which is introduced at the granulation stage in the mass ratio of sylvinite: potassium chloride, equal to 0.25-0.40: 1.

The essence of the invention is as follows.

Sugar beets are among the plants that consume a significant amount of sodium. Optimal for the nutrition of sugar beets is fertilizer containing nutrients in a ratio of N: P ₂ O ₅ : K ₂ O: Na ₂ O = 1: 1: 1.25: 0.2-0.3. The presence of nutrients in the optimal ratio ensures the agrochemical effectiveness of the proposed fertilizer for sugar beets, high yield and sugar content of the culture.

The required ratio of ammonium sulfate and ammonium phosphate, potassium chloride and sodium, nutrients N, P ₂ O ₅ , K ₂ O and Na ₂ O in the fertilizer is achieved by introducing sulfuric acid in phosphoric acid in an amount of 2.65-2.9 t in terms of monohydrate in 1 ton of extraction phosphoric acid in terms of P ₂ O ₅ , potassium chloride in the amount of 1.85-2.05 tons per 1 ton of extraction phosphoric acid in terms of P ₂ O ₅ , and sylvinite is introduced at the stage granulation in a mass ratio of sylvinite: potassium chloride, equal to 0.25-0.40: 1.

As sodium-containing raw materials, ground sylvinite is used according to TU 2111-029-00203944-99 and TU 2111-003-05778557-2000, as well as according to TU 2111-004-05778557-2000, containing 22-24% potassium chloride, 74-76% sodium chloride. Granulometric composition of raw materials: granule size up to 6 mm. Sylvinite contains 14% K ₂ O and 40% Na ₂ O.

The method is illustrated by the following examples.

Example 1. 10.1 t / h extraction phosphoric acid (EPA) containing 50.0% P ₂ O ₅ and 4.9% sulfuric acid H ₂ SO ₄ obtained by sulfuric acid processing of apatite concentrate (amount of P ₂ O ₅ in the initial phosphoric acid is 4.94 t). EPA is mixed with absorption drains in an amount of 3 t / h. Next, the mixture in the amount of 13.1 t / h served in a tubular reactor. There, 93% sulfuric acid is introduced in an amount of 14.9 t / h or 13.9 t in terms of monohydrate (100% H ₂ SO ₄ ). The ratio of the amount of introduced sulfuric acid in terms of monohydrate in 1 ton of extraction phosphoric acid in terms of P ₂ O ₅ is 2.8 t / t. To neutralize the mixture of phosphoric and sulfuric acids, 6.22 t / h of liquid ammonia are fed into the tubular reactor, and a pulp with a molar ratio of NH ₃ / H ₃ PO ₄ = 1.01 is obtained. Due to the heat of exothermic neutralization neutralization reactions, the pulp is heated to 140 ° C, which is supplied to the granulator in an amount of 34.2 t / h, and intense moisture evaporation occurs. The granulator is fed 250 t / h. retura and 9.44 t / h of potassium chloride, 3.68 t / h of ground sylvinite and granulated. The amount of potassium chloride introduced per 1 t of P ₂ O ₅ was 1.9: 1, and the ratio of introduced sylvinite to potassium chloride was 0.39: 1. The resulting fertilizer granules are sent for drying. Get 41.2 t / h of the finished product containing 12.2% N, 12.0% P ₂ About ₅ , 15% about K ₂ O, 3.6% Na ₂ O and 1.0% moisture. The ratio of nutrients in the fertilizer N: P ₂ O ₅ : K ₂ O: Na ₂ O = 1: 1: 1.25: 0.3, Na ₂ O: K ₂ O is 0.24: 1.

Example 2. In a capacitive reactor serves 14.0 t / h extraction phosphoric acid containing 36.0% P ₂ O ₅ and 4.3% sulfuric acid H ₂ SO ₄ obtained by sulfuric acid processing of Karatau phosphorites (amount of P ₂ O ₅ in initial phosphoric acid is 4.94 t). EPA is mixed with absorption drains in an amount of 3 t / h. Next, the mixture in an amount of 17.0 t / h is fed into a tubular reactor. 93% sulfuric acid is introduced there in an amount of 15.3 t / h or 14.3 t in terms of monohydrate (100% H ₂ SO ₄ ). The ratio of the amount of introduced sulfuric acid in terms of monohydrate in 1 t of P ₂ O ₅ is 2.9 t / t. To neutralize the mixture of phosphoric and sulfuric acids, 6.34 t / h of liquid ammonia are fed into the tubular reactor, and a pulp with a molar ratio of NH ₃ / H ₃ PO ₄ = 1.01 is obtained. Due to the heat of exothermic neutralization neutralization reactions, the pulp is heated to 135 ° C, which in the amount of 38.64 t / h is supplied to the granulator, while intensive evaporation of moisture occurs. The granulator is fed 250 t / h. retura and 9.73 t / h of potassium chloride, 2.45 t / h of ground sylvinite and granulated. The amount of potassium chloride introduced per 1 ton of extraction phosphoric acid in terms of P ₂ O ₅ was 2.0: 1, and the ratio of introduced sylvinite to potassium chloride was 0.25: 1. The resulting fertilizer granules are sent for drying in a drying drum. Receive 41.2 t / h of the finished product containing 12.5% N, 12.0% P ₂ O ₅ , 16% K ₂ O, 2.4% Na ₂ O and 1.0% moisture. The ratio of nutrients in the fertilizer N: P ₂ O ₅ : K ₂ O: Na ₂ O = 1: 1: 1.3: 0.2, Na ₂ O: K ₂ O = 0.15: 1.

Maintaining the ratio of the starting reagents: EPA and sulfuric acid, potassium chloride and sylvinite, within the specified limits, provides complex fertilizer with the optimal ratio of nutrients (including sodium), effective for sugar beets.

The consumption of sulfuric acid is less than the ratio of mng / P ₂ O ₅ equal to 2.65: 1, leads to a decrease in the content of ammonium sulfate and a decrease in the nitrogen content in the fertilizer less than 12%. An increase in the consumption of sulfuric acid over a ratio of mng / P ₂ O ₅ of 2.9: 1 leads to an excessive increase in the content of ammonium sulfate, a decrease in the remaining nutrients and the agrochemical effectiveness of the fertilizer.

Maintaining the consumption of potassium chloride in an amount of 1.85-2.05 tons per 1 ton of extraction phosphoric acid in terms of P ₂ O ₅ provides a fertilizer content of 15-16% K ₂ O. The consumption of ground sylvinite within the mass ratio of sylvinite: potassium chloride equal to 0.25-0.40: 1, provides a fertilizer content of 2.4-3.6% Na ₂ O, as well as the ratio of nutrients K ₂ O / Na ₂ O in the range of 1: 0.14-0, 24. This content of sodium chloride (Na ₂ O) in the fertilizer provides full compensation for the removal of sodium by sugar beets from the soil and the effectiveness of the fertilizer. With a decrease in the consumption of sylvinite less than the mass ratio of sylvinite: potassium chloride equal to 0.25: 1, the content of Na ₂ O in the fertilizer decreases, proper nutrition of sugar beets by this element is not provided, and the agrochemical effectiveness of the fertilizer decreases accordingly. An increase in the consumption of sylvinite above the mass ratio of sylvinite: potassium chloride equal to 0.40: 1 leads to a violation of the optimal ratio of nutrients K ₂ O and Na ₂ O, to a decrease in the agrochemical efficiency of the resulting complex fertilizer. Also, the use of ground sylvinite determines the simplification of the process by eliminating the stages of crushing and classification of raw materials. The use of sylvinite, containing 22-24% potassium chloride, can reduce the consumption of technical potassium chloride.

The proposed method provides a highly effective granular compound fertilizer for sugar beets and simplifies the process.

Claims (1)

A method of producing fertilizer for sugar beets containing ammonium phosphates, ammonium sulfates, potassium chloride and sodium, comprising mixing extraction phosphoric acid with absorption effluents, neutralizing ammonia with a mixture of extraction phosphoric and sulfuric acids to a molar ratio of NH ₃ : H ₃ PO ₄ equal to 1, 0-1.2 to obtain sulfoammophosic pulp, feeding retur and pulp to granulation, mixing the pulp with sodium-containing raw materials and potassium chloride, granulating the product and drying the granules in a drying drum to residual moisture in food ucta 0.8-1.2%, characterized in that sulfuric acid is introduced in an amount of 2.65-2.9 tons in terms of monohydrate in 1 ton of extraction phosphoric acid in terms of P ₂ O ₅ , potassium chloride is introduced in an amount 1.85-2.05 tons per 1 ton of P ₂ O ₅ , and ground sylvinite is used as the sodium-containing raw material, which is introduced in a mass ratio of sylvinite: potassium chloride equal to 0.25-0.40: 1.